Belt guiding mechanism and child vehicle seat

ABSTRACT

A belt guiding mechanism, for example for a child vehicle seat, which is suitable for guiding a belt extending through the belt guiding mechanism and locking said belt against movement. The belt guiding mechanism comprises a cam that is capable of pivoting movement relative to a bearing surface, said belt being movable in a tensioning direction and in the opposite direction through a passage present between said cam and said bearing surface. The cam is pivotable in a direction towards the hearing surface for locking the belt against movement. The cam is connected to a sleeve that can be positioned against a person&#39;s shoulder, in which sleeve the belt is slidably accommodated.

The invention relates to a belt guiding mechanism suitable for guiding abelt extending through the belt guiding mechanism and locking said beltagainst movement, which belt guiding mechanism comprises a cam that iscapable of movement relative to a bearing surface, said belt beingmovable In a tensioning direction and in the opposite direction througha passage present between said cam and said bearing surface, which camis movable In a direction towards the bearing surface for locking thebelt against movement.

The invention also relates to a child vehicle seat provided with such abelt guiding mechanism.

With such a belt guiding mechanism as known from European patent EP-B1-0173 726, which is used in a vehicle, the belt is movable in thetensioning direction for tensioning the belt firmly against a personseated in the vehicle. The belt is movable in the opposite direction ofthe tensioning direction so as to allow slight forward movement of saidperson.

If said forward movement is caused by the vehicle suddenly deceleratingor colliding, relatively large forces are exerted on the person andconsequently by the person on the belt, as a result of which the cam ismoved in a direction towards the bearing surface. This causes the beltto be clamped down between the cam and the bearing surface, so that thebelt is locked against movement in the opposite direction of thetensioning direction.

In case of such a collision, one end of the belt is furthermore lockedagainst movement in the opposite direction of the tensioning directionin an automatic belt retractor.

A drawback of the known belt guiding mechanism is the fact that saidlocking of the belt is effected both as a result of the operation of theautomatic belt retractor and as a result of the belt being lockedagainst movement between the cam and the bearing surface. The belt thatmoves through the belt guiding mechanism is relatively smooth so thatthe belt can readily be rolled up in the automatic belt retractor. Adrawback of such a relatively smooth belt is that the belt will fairlyeasily slide off the shoulder of a person seated in the vehicle, forexample. In case of a collision, a person's shoulder will first moverelative to the belt before the belt is moved in the opposite directionof the tensioning direction and locking of the belt can take place.

The object of the invention Is to provide a belt guiding mechanismwherein locking of the belt against movement in the opposite directionof the tensioning direction can take place relatively quickly.

This object is accomplished with the belt guiding mechanism according tothe invention in that the cam is connected to a sleeve that can bepositioned against a person's shoulder, in which sleeve the belt Isslidably accommodated.

As soon as a force that exceeds a predetermined force is exerted on thesleeve in the opposite direction of the tensioning direction, the sleevewill be moved in the opposite direction of the tensioning direction,with the cam being moved towards the bearing surface, causing the beltto be clamped down and locked against movement between the cam and thebearing surface.

In use, the sleeve rests on the shoulder of a person seated in thevehicle, said sleeve being made of a relatively rough material, so thatit will have a relatively high coefficient of friction with a usualgarment of a person.

Since the belt is slidably accommodated within the sleeve, the belt canbe readily moved in the tensioning direction and in the oppositedirection in the position in which the cam is clear of the bearingsurface.

One embodiment of the belt guiding mechanism according to the Inventionis characterized In that a liner having a higher coefficient of frictionthan the belt is present on an outer side of the sleeve remote from thebelt.

The use of such a liner having a relatively high coefficient of frictionwith a user's garment prevents the sleeve from a sliding off a person'sshoulder. As soon as said person moves forward, for example in case of acollision, the relatively high coefficient of friction will directlyresult in the sleeve being moved as well and the belt being lockedagainst movement.

Another embodiment of the belt guiding mechanism according to theinvention is characterized in that a liner having a relatively lowcoefficient of friction with the belt is present on an inner side of thesleeve facing towards the belt.

In this way it is relatively easy to move the belt in the tensioningdirection and in the opposite direction relative to the sleeve.

Another embodiment of the belt guiding mechanism according to theinvention is characterized in that the cam is connected to the sleevevia a strap, which strap is connected to the cam between a pivot pin ofthe cam and the bearing surface.

The strap makes it possible to realise a connection between the cam andthe sleeve in a simple manner. Since the belt engages between the pivotpin about which the cam pivots and the bearing surface, pivoting of thecam towards the bearing surface is effected in a simple manner uponmovement of the strap in the opposite direction of the tensioningdirection.

The invention also relates to a child vehicle seat comprising a seatportion, a back support and at least one shoulder belt extending throughsaid back support.

The child vehicle seat according to the invention is characterized inthat the child vehicle seat comprises a belt guiding mechanismcomprising a cam that is capable of movement relative to a bearingsurface, said shoulder belt being movable in a tensioning direction andin the opposite direction through a passage present between said cam andsaid bearing surface, which cam is movable in a direction towards thebearing surface for locking the shoulder belt against movement, said cambeing connected to a sleeve that is present on a side of the backsupport that faces towards the seat portion, said shoulder belt beingslidably accommodated within said sleeve.

Such a child vehicle seat is mounted in a vehicle by means that areknown per se, after which a child can be secured in the child vehicleseat by means of belts. When the child undergoes a relatively rapidacceleration relative to the child vehicle seat, for example in case ofa collision, the sleeve that abuts against the child's shoulder is movedin the opposite direction of the tensioning direction, as a result ofwhich the cam is moved towards the bearing surface and the shoulder beltis clamped down and locked against movement between the cam and thebearing surface.

One embodiment of the child vehicle seat according to the invention ischaracterized In that the cam Is provided with teeth on a side thatfaces towards the bearing surface.

The teeth ensure that a firm engagement is effected between the cam andthe belt, so that the belt is effectively locked against movement.

Another embodiment of the child vehicle seat according to the inventionis characterized in that the cam is capable of pivoting movement againstspring force in a direction towards the bearing surface.

In this way the cam will preferably be pivoted away from the bearingsurface, so that the belt can easily move through the passage presentbetween the cam and the bearing surface.

Yet another embodiment of the child vehicle seat according to theinvention is characterized in that the cam is capable of pivotingmovement in a direction away from the bearing surface upon movement ofthe belt in the tensioning direction.

Since the cam is pivoted away from the bearing surface, the passage isenlarged, as a result of which the belt can easily move in thetensioning direction.

Yet another embodiment of the child vehicle seat according to theinvention is characterized in that the cam can be locked in a clearanceposition in which the shoulder belt can freely move in a tensioningdirection and in the opposite direction through the passage between thecam and the bearing surface.

In this way it is possible to lock the cam against movement, for examplewith comparatively small children, so that the belt will not be clampeddown and the parts of the extension portion can be moved apart under theinfluence of a force being exerted thereon.

When a comparatively large child is transported, the cam will be movedtowards the bearing surface relatively quickly, causing the shoulderbelt to be clamped down between the cam and the bearing surface. Partsof the extension portion will not be moved apart in that case.

Yet another embodiment of the child vehicle seat according to theinvention is characterized in that the shoulder belt comprises at leastone extension portion comprising at least two opposing parts of theshoulder belt, which can be moved apart under the influence of a forcebeing exerted thereon.

With comparatively large children, movement of the child relative to theshoulder belt must be limited as much as possible so as to prevent therisk of the child coming into contact with, for example, the front seatof the vehicle positioned in front of the child vehicle seat. The childis subjected to relatively large deceleration forces in that case.

It has become apparent that such relatively large deceleration forcesare disadvantageous when comparatively small children are beingtransported.

When the child is placed into the child vehicle seat, and the shoulderbelt is tensioned by means that are known per se, the two parts of theextension portion remain positioned opposite each other. When largeforces are exerted on the child, however, and thus on the shoulder beltsextending across the child's shoulders, in case of a collision, the twoparts will be moved apart, causing the length of the shoulder belt toincrease. As a result, the child can move further forward relative tothe back support as the shoulder belt is further extended. Thedeceleration of the child now takes place more slowly than in thesituation in which the extension portion is not used. The fact that thechild is moved relatively closer to an object positioned in front of thechild vehicle seat, for example a vehicle seat positioned in frontthereof, is less relevant in the case of a comparatively small child andthe risk involved is relatively low. On the other hand, the fact thatthe child is decelerated more slowly as a result of the extensionportion being extended significantly reduces the risk of injury to thecomparatively small child. The risk of the child coming into contactwith another object in the vehicle is only increased to a comparativelysmall degree.

One embodiment of the child vehicle seat according to the invention ischaracterized in that the extension portion is present on a side of theback support remote from the seat portion.

In this way the extension portion is hidden from view to the user, sothat it will not mar the appearance of the child vehicle seat.

Another embodiment of the child vehicle seat according to the inventionis characterized in that the parts are interconnected by a stitchedseam, which connection can be broken under the influence of a forcebeing exerted thereon.

An extension portion can be created in a comparatively simple manner bymeans of a simple stitched seam, in which two parts are folded againsteach other about a folding seam, as it were, to be interconnected bymeans of a stitched seam on a side remote from the folding seam. When arelatively large force is exerted on the shoulder belt, the stitchedseam will come loose, after which the two parts can be moved apart to bepositioned in line with each other.

Another embodiment of the child vehicle seat according to the inventionis characterized in that the parts abut against each other, beinginterconnected over a stitched area, which connection can be brokenunder the influence of a force being exerted thereon.

Since the parts are interconnected over an entire stitched area, theparts will be gradually moved apart along said stitched area when arelatively large collision force occurs, so that a gradual extension ofthe shoulder belt is obtained.

Yet another embodiment of the child vehicle seat according to theinvention is characterized in that the parts are interconnected by meansof a spring element.

Said spring element will be extended when a relatively large collisionforce occurs, as a result of which the two parts of the extensionportion can be moved apart. Once the collision has ended and thecollision force is no longer being exerted, the parts can be movedtogether again under the influence of the action of the spring element.

It is also possible to arrange for the parts of the extension portionnot to be moved apart until a predetermined force is exerted, and forthe cam to be moved towards the bearing surface to clamp down the beltwhen a force larger than said predetermined force is being exerted.

The invention will now be explained in more detail with reference to thedrawings, in which:

FIG. 1 is a perspective view of a child vehicle seat according to theinvention, which comprises a belt guiding mechanism according to theinvention, in which the belts are freely movable;

FIG. 2 is a detail view of the child vehicle seat that is shown in FIG.1;

FIG. 3 is a perspective view of the child vehicle seat of FIG. 1, inwhich the belts are locked against movement;

FIG. 4 is a detail view of the child vehicle seat that is shown in FIG.3;

FIG. 5 is a side view of another embodiment of a belt guiding mechanismaccording to the invention;

FIG. 6 is a detail view of another embodiment of a belt guidingmechanism according to the invention, in which the belts are freelymovable;

FIG. 7 is a detail view of said other embodiment of the belt guidingmechanism according to the invention, in which the belts are lockedagainst movement;

FIG. 8 is a detail view corresponding to FIG. 6 of the belt guidingmechanism, in which the cam is locked in position;

FIG. 9 is a detail view corresponding to FIG. 8 of the belt guidingmechanism during a collision;

FIGS. 10A and 10B show an extension portion of the child vehicle seataccording to the invention in a starting position and an extendedposition, respectively;

FIGS. 11A and 11B show another embodiment of an extension portion of achild vehicle seat according to the invention in a starting position andan extended position, respectively.

Like parts are indicated by the same numerals in the figures.

FIG. 1 shows a child vehicle seat 1 according to the invention, whichcomprises a chassis 2 and a seat 3 that is tiltably connected to thechassis 2. The seat 3 comprises a seat portion 4 and a back support 5connected thereto. The seat portion 4 is bounded by armrests 6 on bothlongitudinal sides. The child vehicle seat 1 comprises a crotch memberportion 7, which is connected to the seat portion 4 with one end andwhich is provided with a buckle lock 8 on a side remote from the seatportion 4. The child vehicle seat 1 further comprises two belts 9, 10,which are each connected to the seat 3 with one end at the location of atransition between the seat portion 4 and the armrests 6. The ends ofthe belts 9, 10 may also be interconnected under the seat portion 4. Theends of the belts 9, 10 remote from the seat portion extend through theback support 5 and are connected to a tensioning belt 11 on the rearside of the back support 5. The tensioning belt 11 is movable in thedirection indicated by the arrow P1 for tensioning the belts 9, 10. Beltbuckles 12, 13 can slide over the belts 9, 10, which belt buckles 12, 13are each provided with a buckle tongue, which can be interlocked withthe buckle lock 8. The lower portions of the belts 9, 10 form lap belts,whilst the upper portions form shoulder belts.

The back support 5 is provided with a number of openings 26, 27positioned one above another, through which the belts 9, 10 are passed,the opening 26, 27 in question being selected in dependence on the sizeof the child to be transported in the child vehicle seat.

The child vehicle seat as described so far is known per se and will notbe explained in more detail herein, therefore.

On a side of the back support 5 remote from the seat portion 4, thechild vehicle seat 1 according to the invention is provided with twocams 15 that pivot about pivot pins 14, which each comprise a portionprovided with projecting teeth 16 that is positioned opposite a bearingsurface 17 that is rigidly connected to the back support 5. Presentbetween the cam 15 and the bearing surfaces 17 is a passage 18, throughwhich the belts 9 and 10 extend. Each cam 15 is connected to a strap 19between the pivot pin 14 and the portion that is provided with teeth 16.On a side remote from the back support 5, the strap 19 is connected tothe cam 15 by means of a locking element 20. The strap 19 extendsthrough the back support 5 to a side facing towards the seat portion andis connected to a sleeve 21 with an end remote from the cam 15. The belt9. 10 extends through the sleeve 21. On an inner side facing toward thebelt 9, 10, the sleeve 21 is provided with a liner that has a relativelylow coefficient of friction with the belt 9, 10. On an outer side remotefrom the belts 9, 10, the sleeve 21 is provided with a liner of 22 thathas a relatively high coefficient of friction with a garment of a childseated in the child vehicle seat 1.

The operation of the child vehicle seat 1 according to the invention isas follows. Once a child is seated in the child vehicle seat 1 and thebuckle tongues of the belt buckles 12, 13 are connected to the bucklelock 8, the tensioning belt 11 is moved in the direction indicated bythe arrow P1, as a result of which the belts 9, 10 connected thereto arepulled against the child and tensioned. The belt 9, 10 moving over thecam 15 causes the cam 15 to pivot in the direction indicated by thearrow P2, as a result of which the portion provided with teeth 16 ismoved away from the bearing surfaces 17 and the passage 18 is enlarged.As a result, the belt 9, 10 can move through the passage 18 relativelyeasily. The teeth 16 preferably extend in a direction away from thesleeve 21, so that the teeth 16 do not interfere with the movement ofthe belt 9, 10 in the tensioning direction indicated by the arrow P1.

The sleeves 21 abut against the child's shoulders with the liners 22.When the child moves away from the back support 5, the relatively highcoefficient of friction will result in a relatively large frictionalforce between the sleeve 21 and the child's shoulders. When saidfrictional force is sufficiently large, the sleeve 21 will be moved inthe direction indicated by the arrow P4, causing the cam 15 to pivot Ina direction P3 opposed to the direction Indicated by the arrow P2 (FIGS.3, 4). The portion provided with teeth 16 is moved toward the bearingsurface 17, and the belt 9, 10 positioned therebetween is clamped downbetween the cam 15 and the bearing surface 17 and locked againstmovement in the direction indicated by the arrow P4.

Preferably, the cam 15 is provided with a spring, and preferably thespring force generated by the spring causes the cam 15 to take up theclearance position spaced from the bearing surface 17, as is shown inFIG. 2. Consequently, the spring force generated by the spring will haveto be overcome first in order to move the cam 15 in the directionindicated by the arrow P3 to the locking position that is shown in FIG.4.

FIG. 5 is a side view of another embodiment of a belt guiding mechanismaccording to the invention. The belt guiding mechanism 31 comprises acam 32 provided with teeth 16, which is sildably supported in a guide32. The cam 31 is connected, via a strap 19, to a sleeve 21 throughwhich a belt 9, 10 extends. A bearing surface 17 is located on a side ofthe belt 9, 10 remote from the strap 19. The cam 31 can move in thedirection indicated by the arrow P5, towards the supporting surface 17,against the spring force of a spring 33, thereby reducing the size ofthe passage 18 and causing the belt 9, 10 to be clamped down and belocked against movement between the teeth 16 of the cam 31 and thebearing surface 17.

In the embodiment of a belt guiding mechanism according to the inventionthat is shown In FIGS. 6-9, the cam 15 Is connected to a cam 24, whichextends beyond the bearing surface 17 and which extends parallel to theback support 5 with a side 25 in the position that is shown in FIG. 6.In the position that is shown in FIGS. 6 and 7, the cam 24 is positionedopposite a relatively large passage 26 in the back support 5. In theposition that is shown in FIGS. 8 and 9, further down the back support5, the passage 27 is comparatively small and the side 25 of the cam 24abuts against the back support 5.

When the shoulder belts 9, 10 extend through the relatively highpositioned, relatively large passages 26, the operation of the childvehicle seat 1 according to the invention is as follows. When the childmoves away from the back support 5, a relatively large frictional forcewill occur between the sleeve 21 and the child's shoulders as a resultof the relatively high coefficient of friction. If said frictional forceis sufficiently large, the sleeve 21 will be moved in the directionindicated by the arrow P4, causing the cam 15 as well as the cam 24 tobe pivoted in the direction indicated by the arrow P3, opposite to thedirection indicated by the arrow P2 (FIG. 7). The cam 24 extends intothe relatively large passage 26 in that position. The portion providedwith teeth 16 is moved towards the bearing surface 17 and the belt 9, 10positioned therebetween is clamped down and locked against movement inthe direction indicated by the arrow P4 between the cam 15 and thebearing surface 17.

When the shoulder belts 9, 10 extend through the relatively lowpositioned, relatively small passages 27 (FIGS. 8, 9), friction willoccur between the sleeve 21 and the child's shoulders, to be true, butthe cam 24 cannot pivot in the direction indicated by the arrow P4,because the side 25 of the cam will abut against the back support 5, asa result of which the cam 24 and also the cam 15 connected thereto arelocked against pivoting movement. This enables the belts to move freelythrough the passage 18, the passage 27 in the back support and thesleeve 21 (FIG. 9).

The belts 9, 10 may be provided with an extension portion 31 (FIGS. 10A,10D) or an extension portion 41 (FIG. 11A, 11B) on a side of the backsupport 5 remote from the seat portion.

The extension portion 31 has been formed in the belt 9, 10 by foldingthe belt 9, 10 double about a folding seam 32, with two belt portions33, 34 being positioned opposite each other. On a side remote from thefolding seam 32, the belt portions 33. 34 are interconnected by means ofa stitched seam 35. As long as a relatively small force is exerted onthe belt 9, 10, for example by tensioning the belt 9, 10 or uponmovement of the child in the child vehicle seat, the stitched seam 35 isstrong enough not to be broken. However, as soon as a relatively largeforce is exerted on the child, and consequently on the belts 9, 10, inthe direction indicated by the arrow P3 in case of a collision in theposition that is shown in FIG. 9, the stitched seam 35 will come loose,causing the belt portions 33, 34 to be positioned in line with the belt9, 10, as a result of which the effective belt length is increased andthe child can move further In the direction indicated by the arrow P3.As a result, the child will be decelerated more slowly in case of acollision, and it has been found that this reduces the risk of injury tothe child. The distance between the broken stitched seams 35′ ispreferably not too long, so as to prevent the child from abruptly movingtoo far away from the back support after the stitched seam 35 has comeloose.

Such abrupt movement can be prevented if the portions 33, 34 are notinterconnected by a stitched seam 35, as is the case with the extensionportion 41, but over a stitched area 42. The stitching in the stitchedarea 42 will gradually come loose when a comparatively large force isexerted on the belts 9, 10, as a result of which a gradual, controlledextension of the belts 9, 10 will take place.

It is also possible to provide the belts 9, 10 with a number ofextension portions. In that case it is possible to use the same type ofstitched seam 35 over the stitched area 42 for each extension portion,or to configure the stitched seams such that different forces arerequired for moving the portions 33, 34 apart at the various extensionportions.

It is also possible to interconnect the portions 33, 34 by means of aspring element on a side remote from the folding seam 32, which springelement can undergo an extension under the influence of a relativelylarge force being exerted thereon.

Of course it is also possible to use the belt 9, 10 provided with theextension portion without a cam 15 being present, in which case the beltcan undergo an extension both when transporting comparatively largechildren and when transporting comparatively small children.

Preferably, the sleeve 21 is provided with a relatively smooth materialon the inside, as a result of which the coefficient of friction with thebelt 9, 10 moving through the sleeve 21 is relatively low.

On an outer side 22 remote from the belt 9, 10, the sleeve 21 ispreferably provided with a material having a relatively high coefficientof friction with a garment worn by a child, for example a thermoplasticelastomer, a textured material or a material provided with frictionstuds.

It is also possible to use the belt guiding mechanism with a vehiclesafety belt, in which case the cam 15 is positioned in the frame of thevehicle and the sleeve 21 is located on a side of a back support thatfaces towards a seat portion.

It is also possible to use only a single cam at the rear side of theback support, which cam will be capable of locking both shoulder beltsagainst movement at the same time.

It is also possible to use the belt guiding mechanism according to theinvention with the lap belts 9, 10.

The cam may have any shape suitable for clamping down a belt.

1. A belt guiding mechanism suitable for guiding a belt extendingthrough the belt guiding mechanism and locking said belt againstmovement, which belt guiding mechanism comprises a cam that is capableof movement relative to a bearing surface, said belt being movable in atensioning direction and in the opposite direction through a passagepresent between said cam and said bearing surface, which cam is movablein a direction towards the bearing surface for locking the belt againstmovement, characterized in that the cam is connected to a sleeve thatcan be positioned against a person's shoulder, in which sleeve the beltis slidably accommodated.
 2. A belt guiding mechanism according to claim1, characterized in that a liner having a higher coefficient of frictionthan the belt is present on an outer side of the sleeve remote from thebelt.
 3. A belt guiding mechanism according to claim 1, characterized inthat a liner having a relatively low coefficient of friction with thebelt is present on an inner side of the sleeve facing towards the belt.4. A belt guiding mechanism according to claim 1, characterized in thatthe cam can pivot about a pivot pin.
 5. A belt guiding mechanismaccording to claim 4, characterized in that the cam is connected to thesleeve via a strap, which strap is connected to the cam between a pivotpin of the cam and the bearing surface.
 6. A belt guiding mechanismaccording to claim 1, characterized in that the cam is capable ofsliding movement against spring force in a direction towards the bearingsurface.
 7. A child vehicle seat comprising a seat portion, a backsupport and at least one shoulder belt extending through said backsupport, characterized in that the child vehicle seat comprises a beltguiding mechanism comprising a cam that is capable of movement relativeto a bearing surface, said belt being movable in a tensioning directionand in the apposite direction through a passage present between said camand said bearing surface, which cam is movable in a direction towardsthe bearing surface for locking the belt against movement, said cambeing connected to a sleeve that is present on a side of the backsupport that faces towards the seat portion, said shoulder belt beingslidably accommodated within said sleeve.
 8. A child vehicle seataccording to claim 7, characterized in that a liner having a highercoefficient of friction than the belt is present on an outer side of thesleeve remote from the belt.
 9. A child vehicle seat according to claim7, characterized in that a liner having a relatively low coefficient offriction with the belt is present on an inner side of the sleeve facingtowards the belt.
 10. A child vehicle seat according to claim 7,characterized in that the cam is provided with teeth on a side thatfaces towards the bearing surface.
 11. A child vehicle seat according toclaim 7, characterized in that the cam is connected to the sleeve via astrap, which strap is connected to the cam between a pivot pin of thecam and the bearing surface.
 12. A child vehicle seat according to claim7, characterized in that the cam is capable of pivoting movement againstspring force in a direction towards the bearing surface.
 13. A childvehicle seat according to claim 7, characterized in that the cam iscapable of pivoting movement in a direction away from the bearingsurface upon movement of the belt in the tensioning direction.
 14. Achild vehicle seat according to claim 7, characterized in that the camis capable of sliding movement against spring force in a directiontowards the bearing surface.
 15. A child vehicle seat according to claim7, characterized in that the cam can be locked in a clearance positionin which the shoulder belt can freely move in a tensioning direction andin the opposite direction through the passage between the cam and thebearing surface.
 16. The child vehicle seat according to claim 15,characterized in that the back support is provided with at least twopassages, wherein the cam can be moved to a locking position for lockingthe shoulder belt against movement at the first passage, whilst the camcan be locked in the clearance position at the other passage.
 17. Achild vehicle seat according to claim 7, characterized in that theshoulder belt comprises at least one extension portion comprising atleast two opposing parts of the shoulder belt, which can be moved apartunder the influence of a force being exerted thereon.
 18. A childvehicle seat according to claim 17, characterized in that the extensionportion is present on a side of the back support remote from the seatportion.
 19. A child vehicle seat according to claim 17, characterizedin that the parts are interconnected by a stitched seam, whichconnection can be broken under the influence of a force being exertedthereon.
 20. A child vehicle seat according to claim 17, characterizedin that the parts abut against each other, being interconnected over astitched area, which connection can be broken under the influence of aforce being exerted thereon.
 21. A child vehicle seat according to claim17, characterized in that said parts are interconnected by means of aspring element.